David R. Greatrix scite author profile

David R. Greatrix

5Publications

227Citation Statements Received

96Citation Statements Given

How they've been cited

156

222

How they cite others

Affiliations

Toronto Metropolitan University, University of Toronto, Bombardier (Canada)

Publications

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Transient Burning Rate Model for Solid Rocket Motor Internal Ballistic Simulations

Greatrix

2008

International Journal of Aerospace Engineering

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A general numerical model based on the Zeldovich-Novozhilov solid-phase energy conservation result for unsteady solid-propellant burning is presented in this paper. Unlike past models, the integrated temperature distribution in the solid phase is utilized directly for estimating instantaneous burning rate (rather than the thermal gradient at the burning surface). The burning model is general in the sense that the model may be incorporated for various propellant burning-rate mechanisms. Given the availability of pressure-related experimental data in the open literature, varying static pressure is the principal mechanism of interest in this study. The example predicted results presented in this paper are to a substantial extent consistent with the corresponding experimental firing response data.

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Structural vibration considerations for solid rocket internal ballistics modeling

Montesano

Greatrix

Behdinan³

et al. 2000

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Model for Prediction of Negative and Positive Erosive Burning

Greatrix

2006

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Internal chamber modeling of a solid rocket motor: Effects of coupled structural and acoustic oscillations on combustion

Montesano

Behdinan

Greatrix

et al. 2008

Journal of Sound and Vibration

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Regression rate estimation for standard-flow hybrid rocket engines

Greatrix¹

2009

Aerospace Science and Technology

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David R. Greatrix

Transient Burning Rate Model for Solid Rocket Motor Internal Ballistic Simulations

Structural vibration considerations for solid rocket internal ballistics modeling

Model for Prediction of Negative and Positive Erosive Burning

Internal chamber modeling of a solid rocket motor: Effects of coupled structural and acoustic oscillations on combustion

Regression rate estimation for standard-flow hybrid rocket engines

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